186 lines
5.8 KiB
ReStructuredText
186 lines
5.8 KiB
ReStructuredText
.. _message_queues_v2:
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Message Queues
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##############
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A :dfn:`message queue` is a kernel object that implements a simple
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message queue, allowing threads and ISRs to asynchronously send and receive
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fixed-size data items.
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.. contents::
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:local:
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:depth: 2
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Concepts
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********
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Any number of message queues can be defined. Each message queue is referenced
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by its memory address.
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A message queue has the following key properties:
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* A **ring buffer** of data items that have been sent but not yet received.
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* A **data item size**, measured in bytes.
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* A **maximum quantity** of data items that can be queued in the ring buffer.
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The message queue's ring buffer must be aligned to an N-byte boundary, where
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N is a power of 2 (i.e. 1, 2, 4, 8, ...). To ensure that the messages stored in
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the ring buffer are similarly aligned to this boundary, the data item size
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must also be a multiple of N.
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A message queue must be initialized before it can be used.
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This sets its ring buffer to empty.
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A data item can be **sent** to a message queue by a thread or an ISR.
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The data item a pointed at by the sending thread is copied to a waiting thread,
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if one exists; otherwise the item is copied to the message queue's ring buffer,
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if space is available. In either case, the size of the data area being sent
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*must* equal the message queue's data item size.
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If a thread attempts to send a data item when the ring buffer is full,
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the sending thread may choose to wait for space to become available.
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Any number of sending threads may wait simultaneously when the ring buffer
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is full; when space becomes available
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it is given to the highest priority sending thread that has waited the longest.
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A data item can be **received** from a message queue by a thread.
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The data item is copied to the area specified by the receiving thread;
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the size of the receiving area *must* equal the message queue's data item size.
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If a thread attempts to receive a data item when the ring buffer is empty,
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the receiving thread may choose to wait for a data item to be sent.
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Any number of receiving threads may wait simultaneously when the ring buffer
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is empty; when a data item becomes available it is given to
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the highest priority receiving thread that has waited the longest.
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.. note::
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The kernel does allow an ISR to receive an item from a message queue,
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however the ISR must not attempt to wait if the message queue is empty.
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Implementation
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**************
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Defining a Message Queue
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========================
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A message queue is defined using a variable of type :c:type:`struct k_msgq`.
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It must then be initialized by calling :cpp:func:`k_msgq_init()`.
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The following code defines and initializes an empty message queue
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that is capable of holding 10 items, each of which is 12 bytes long.
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.. code-block:: c
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struct data_item_type {
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uint32_t field1;
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uint32_t field2;
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uint32_t field3;
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};
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char __aligned(4) my_msgq_buffer[10 * sizeof(data_item_type)];
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struct k_msgq my_msgq;
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k_msgq_init(&my_msgq, my_msgq_buffer, sizeof(data_item_type), 10);
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Alternatively, a message queue can be defined and initialized at compile time
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by calling :c:macro:`K_MSGQ_DEFINE`.
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The following code has the same effect as the code segment above. Observe
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that the macro defines both the message queue and its buffer.
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.. code-block:: c
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K_MSGQ_DEFINE(my_msgq, sizeof(data_item_type), 10, 4);
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Writing to a Message Queue
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==========================
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A data item is added to a message queue by calling :cpp:func:`k_msgq_put()`.
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The following code builds on the example above, and uses the message queue
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to pass data items from a producing thread to one or more consuming threads.
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If the message queue fills up because the consumers can't keep up, the
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producing thread throws away all existing data so the newer data can be saved.
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.. code-block:: c
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void producer_thread(void)
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{
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struct data_item_t data;
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while (1) {
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/* create data item to send (e.g. measurement, timestamp, ...) */
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data = ...
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/* send data to consumers */
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while (k_msgq_put(&my_msgq, &data, K_NO_WAIT) != 0) {
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/* message queue is full: purge old data & try again */
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k_msgq_purge(&my_msgq);
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}
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/* data item was successfully added to message queue */
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}
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}
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Reading from a Message Queue
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============================
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A data item is taken from a message queue by calling :cpp:func:`k_msgq_get()`.
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The following code builds on the example above, and uses the message queue
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to process data items generated by one or more producing threads.
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.. code-block:: c
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void consumer_thread(void)
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{
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struct data_item_t data;
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while (1) {
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/* get a data item */
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k_msgq_get(&my_msgq, &data, K_FOREVER);
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/* process data item */
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...
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}
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}
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Suggested Uses
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**************
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Use a message queue to transfer small data items between threads
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in an asynchronous manner.
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.. note::
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A message queue can be used to transfer large data items, if desired.
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However, this can increase interrupt latency as interrupts are locked
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while a data item is written or read. It is usally preferable to transfer
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large data items by exchanging a pointer to the data item, rather than the
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data item itself. The kernel's memory map and memory pool object types
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can be helpful for data transfers of this sort.
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A synchronous transfer can be achieved by using the kernel's mailbox
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object type.
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Configuration Options
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*********************
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Related configuration options:
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* None.
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APIs
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****
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The following message queue APIs are provided by :file:`kernel.h`:
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* :c:macro:`K_MSGQ_DEFINE`
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* :cpp:func:`k_msgq_init()`
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* :cpp:func:`k_msgq_put()`
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* :cpp:func:`k_msgq_get()`
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* :cpp:func:`k_msgq_purge()`
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* :cpp:func:`k_msgq_num_used_get()`
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* :cpp:func:`k_msgq_num_free_get()`
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